Crystal structure, spectroscopy and magnetism of a dinuclear strongly antiferromagnetically coupled N-oxido-bridged Cu(II) compound with 2,2′-bipyridine-1,1′-dioxide (bpdo) as a ligand; [Cu2(bpdo)2Br4]

A new dinuclear compound, [Cu2(bpdo)2Br4], (in which bpdo = 2,2′-Bipyridine-1,1′-dioxide), has been synthesized and fully characterized, including the X-ray and the magnetic susceptibility. Each copper(II) ion in the dinuclear compound has a distorted square pyramidal geometry with the basal plane formed by two oxygen atoms of two ligand molecules which are bridging between the Cu ions with Cu–O distances of 2.021(2) and 2.039(2) Å and two bromide atoms with Cu–Br distances of 2.3577(6) and 2.3665(7) Å. The fifth position is occupied by a non bridging oxygen atom of a ligand with a Cu–O distance of 2.197(2) Å. The distance between the Cu ions is 3.334 Å, while the Cu–O–Cu angle is 110.37(9)°. The magnetic susceptibility measurements (from 5 to 350 K) agree with a very strong antiferromagnetic interaction with a large singlet–triplet splitting (J) of −905 cm−1. At high T (above 250 K) a triplet powder EPR is observed.

Graphical abstractThe compound [Cu2(2,2′-Bipyridine-1,1′-dioxide)2Br4] has been synthesized and characterized. Each copper(II) ion has a distorted square pyramidal geometry. The magnetic susceptibility measurements agree with a very strong antiferromagnetic interaction (J = −905 cm−1).Figure optionsDownload full-size imageDownload as PowerPoint slide